|
Session Start Time |
Pres # |
Poster Board # |
Authors & Institutions |
Abstract Title |
|
Sat 11/12 1:00 PM |
45.02 |
K2 |
*E. W. SCHOMBURG1, C. A. ANASTASSIOU1, G. BUZSÁKI2, C. KOCH1,3; 1California Insitute of Technol., Pasadena, CA; 2Ctr. for Mol. and Behavioral Neurosci., Rutgers, Newark, NJ; 3Allen Inst. for Brain Sci., Seattle, WA |
Spiking component of slow extracellular potentials (LFPs) in
hippocampus |
|
Sat 11/12 1:00 PM |
46.08 |
M7 |
Y. AMARILLO1, *M. S. NADAL2,1; 1Física Estadística e Interdisciplinaria, 2Ctr. Atomico Bariloche, SC de Bariloche, Argentina |
On the repetitive burst firing of Thalamic Relay
Neurons |
|
Sat 11/12 1:00 PM |
46.12 |
M11 |
*S. HUANG, E. DE SCHUTTER; Okinawa Inst. of Sci. and Technol., Okinawa, Japan |
A computational study of chloride metabolism in Purkinje
neuron |
|
Sat 11/12 1:00 PM |
50.02 |
U2 |
*M. E. KEANE1, S. D. DEYO1, J. A. BAJWA4,5,6, A. ABOSCH2, M. D. JOHNSON3; 1Biomed. Engin., 2Dept. of Neurosurg., 3Inst. for Translational Neurosci., Univ. of Minnesota, Minneapolis, MN; 4Neurolog. Associates of St. Paul, Saint Paul, MN; 5Nasseff Neurosci. Ctr., United Hosp., Saint Paul, MN; 6Capistrant Ctr. for Parkinson’s Dis. and Movement Disorders, Bethesda Hosp., Saint Paul, MN |
Quantifying the pathways modulated by Vim-DBS for Essential
Tremor |
|
Sat 11/12 1:00 PM |
75.06 |
MM3 |
*J. STRAEHLE1, H. S. MEYER2, J. HOFFMANN1, B. SAKMANN2, M. HELMSTAEDTER1; 1Max Planck Inst. for Med. Res., Heidelberg, Germany; 2Max Planck Florida Inst., Jupiter, FL |
A mechanistic model of the L4-to-L2/3 circuit in primary
somatosensory cortex |
|
Sat 11/12 1:00 PM |
75.12 |
MM9 |
M. W. REIMANN1, C. A. ANASTASSIOU2, *S. L. HILL1, C. KOCH2, H. MARKRAM1; 1Brain Mind Institute, EPFL, Lausanne, Switzerland; 2Div. of Biol., Caltech, Pasadena, CA |
The composition of extracellular potentials in neocortical
microcircuits |
|
Sun 11/13 8:00 AM |
162.05 |
DD5 |
*E. A. FRANSEN1,2, J. TIGERHOLM1, M. E. PETERSSON1, R. CARR3, O. OBREJA3, A. LAMPERT4, M. SCHMELZ3; 1Royal Inst. of Technol., Stockholm, Sweden; 2Stockholm Brain Inst., Stockholm, Sweden; 3Anaesthesiology, Universitaetsmedizin Mannheim, Univ. of Heidelberg, Mannheim, Germany; 4Inst. of Physiol. und Pathophysiology, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany |
Computational modeling of activity dependent velocity changes
in peripheral C-fibers |
|
Sun 11/13 8:00 AM |
169.07 |
HH16 |
*M. BERNING, I. FUKUNAGA, A. SCHAEFER; Behavioural Neurophysiol., Max Planck Inst. For Med. Res., Heidelberg, Germany |
Systematic analysis of the relation between connectivity and
olfactory bulb output phase |
|
Sun 11/13 8:00 AM |
169.20 |
HH29 |
*Y. YU1, T. S. MCTAVISH1, M. L. HINES1, G. M. SHEPHERD1, M. MIGLIORE1,2; 1Dept. of Neurobio., Yale Univ. Sch. Med., NEW HAVEN, CT; 2Inst. of Biophysics, Natl. Res. Council, Palermo, Italy |
Emergent spatially distributed synaptic clusters in a
large-scale network model of the olfactory bulb |
|
Sun 11/13 8:00 AM |
197.18 |
WW13 |
B. REYNAERT1, E. RAMIREZ2, J. MPODOZIS2, G. MARIN2, *J.-C. LETELIER2; 1Univ. de Chile, Santiago, Chile; 2Univ. of Chile, Santiago, Chile |
Spatio-temporal properties of excitation and inhibition for an
attentional mechanism in the optic tectum of the pigeon (Columba
livia). |
|
Sun 11/13 1:00 PM |
230.16 |
B15 |
*M. FERRANTE1, J. K. MAKARA2, J. C. MAGEE2, M. MIGLIORE3, G. A. ASCOLI1; 1George Mason Univ., FAIRFAX, VA; 2Howard Hughes Med. Institute, Janelia Farm Res. Campus, Ashburn, VA; 3Consiglio Nazionale delle Ricerche, Palermo, Italy |
Functional consequences of dendritic branch point
morphology |
|
Sun 11/13 1:00 PM |
234.09 |
C20 |
*R. BRENNER1, B. WANG2, D. B. JAFFE3; 2Physiol., 1UT Hlth. Sci. Ctr, San Antonio, SAN ANTONIO, TX; 3Biol., UT San Antonio, San Antonio, TX |
The BK channel fast afterhyperpolarization is mediated by
selective coupling between type I, fast-gated BK channels and
ryanodine receptors |
|
Sun 11/13 1:00 PM |
234.11 |
C22 |
*D. B. JAFFE1, B. WANG2, R. BRENNER2; 1Univ. of Texas At San Antonio, SAN ANTONIO, TX; 2Dept. of Physiol., Univ. of Texas Hlth. Sci. Ctr. San Antonio, San Antonio, TX |
Shaping of somatic and dendritic action potentials in dentate
gyrus granule cells by type I and type II BK
channels |
|
Sun 11/13 1:00 PM |
239.07 |
D52 |
*E. MUNRO1,2, N. KOPELL1; 1Mathematics, Boston Univ., Boston, MA; 2RIKEN Brain Sci. Inst., Tokyo, Japan |
Neocortical pyramidal cells can control signals to
post-synaptic cells without firing: a model of the axonal
plexus |
|
Sun 11/13 1:00 PM |
295.07 |
VV57 |
*S. EL BOUSTANI, P. YGER, Y. FRÉGNAC, A. DESTEXHE; UNIC CNRS UPR 3293, Gif-sur-Yvette, France |
mSTDP : A model of Spike Timing-Dependent Plasticity with
metaplasticity which accounts for stable learning in stochastic
in vivo-like network states |
|
Sun 11/13 1:00 PM |
306.19 |
YY30 |
*T. J. FOUTZ1,2, C. C. MCINTYRE1,2; 1Biomed. Engin., Case Western Reserve Univ., Cleveland, OH; 2Biomed. Engin., Cleveland Clin., Cleveland, OH |
Computational analysis of optogenetics: fiber optic
stimulation of a channelrhodopsin-2 positive pyramidal
neuron |
|
Mon 11/14 8:00 AM |
335.04 |
B45 |
C. FIETKIEWICZ1, K. A. LOPARO1, *C. G. WILSON2; 1Dept. of Electrical Engin. and Computer Sci., 2Dept Pediatrics, Case Western Reserve Univ., CLEVELAND, OH |
Phase Relationships in a Computational Model of Respiratory
Rhythm Generation in an in vitro slice |
|
Mon 11/14 8:00 AM |
349.02 |
O10 |
*S. PARK1, J. KWAG2; 1Brain and Cognitive engineering, Seoul, Korea, Republic of; 2Brain and Cognitive engineering, Korea Univ., Seoul, Korea, Republic of |
Inhibitory synaptic input location-dependence of the control
of spike timing during theta-frequency oscillation in hippocampal
CA1 pyramidal neuron: A NEURON model study |
|
Mon 11/14 8:00 AM |
349.03 |
O11 |
*K. R. TUCKER1, M. A. HUERTAS3, J. P. HORN2, C. C. CANAVIER3, E. S. LEVITAN1; 1Dept. of Pharmacol. and Chem. Biol., 2Dept. of Neurobio. and Ctr. for Neurosci., Univ. of Pittsburgh, Pittsburgh, PA; 3Neurosci. Ctr. of Excellence, Louisiana State Univ. Hlth. Sci. Ctr., New Orleans, LA |
Pacemaker rate and depolarization block in dopamine neurons
depend differently upon the density and spatial distribution of
sodium channels |
|
Mon 11/14 8:00 AM |
349.05 |
P1 |
U. PEREIRA1, J. VERA1, M. PEZZOLI1, J. BACIGALUPO2, *M. SANHUEZA3; 1Univ. de Chile, Santiago, Chile; 2Biol, Biol. Dept and ICDB Institute, Univ. Chile, Santiago, Chile; 3Biol, Biology, Fac Sci, Univ. Chile, Santiago, Chile |
A computational conductance-based model that reproduce theta
resonance dynamics in olfactory amygdala neurons |
|
Mon 11/14 8:00 AM |
374.10 |
MM12 |
*G. LI, T. A. CLELAND; Psychology Dept., Cornell Univ., ITHACA, NY |
A biophysical model of cholinergic modulation in the olfactory
bulb |
|
Mon 11/14 1:00 PM |
448.12 |
G8 |
*W. J. SPAIN1, S. CAVANAUGH2, S. J. SLEE3, M. S. KUZNETSOVA4, P. C. SCHWINDT4, M. H. HIGGS5; 1Neurol., 2Physiol. & Biophysics, Univ. Washington, SEATTLE, WA; 3Biomed. Engin., Johns Hopkins Univ., Baltimore, MD; 5Neurol., 4Veterans Affairs Puget Sound Hlth. Care Syst., Seattle, WA |
EPSC amplitude noise caused by fast synaptic depression: A
function in robust spike time coding |
|
Mon 11/14 1:00 PM |
452.04 |
M9 |
*G. TOLEIKYTE, C. SCHMIDT-HIEBER, T. BRANCO, C. P. BURGESS, M. HAUSSER; Wolfson Inst. for Biomed. Res., UCL, London, United Kingdom |
Dendritic integration of synaptic inputs in stellate cells of
the medial entorhinal cortex |
|
Mon 11/14 1:00 PM |
452.09 |
N2 |
*A. C. ROQUE, R. PUBLIO; Physics, Univ. de Sao Paulo, Ribeirao Preto, Brazil |
Role of active dendrites on the dynamic range of simulated
models of retinal ganglion cells |
|
Mon 11/14 1:00 PM |
452.14 |
N7 |
*A. E. CASALE1, D. MCCORMICK2; 1Interdepartmental Neurosci. Program, 2Neurobiology, Kavli Inst. for Neurosci., Yale Univ., New Haven, CT |
Initiation, propagation, and modulation of action potentials
in active thalamic interneuron dendrites |
|
Mon 11/14 1:00 PM |
452.18 |
N11 |
*M. T. HARNETT1, J. K. MAKARA1, N. SPRUSTON2, J. C. MAGEE1; 1Janelia Farm Res. Campus, Howard Hughes Med. Inst., Ashburn, VA; 2Neurobio. & Physiol., Northwestern Univ., Evanston, IL |
Compartment-specific voltage attenuation across dendritic
spine necks |
|
Mon 11/14 1:00 PM |
475.10 |
II5 |
*T. S. MCTAVISH1, M. MIGLIORE2, G. M. SHEPHERD1, M. L. HINES3; 1Neurobio., Yale Univ. Sch. of Med., New Haven, CT; 2Inst. of Biophysics, Natl. Res. Council, Palermo, Italy; 3Dept. of Computer Sci., Yale Univ., New Haven, CT |
Mitral cell spike synchrony modulated by dendrodendritic
synapse location |
|
Mon 11/14 1:00 PM |
477.17 |
JJ32 |
*H. SUN, B. WALMSLEY; Dept Neurosci., Australian Natl. Univ., Canberra, Australia |
A computational model of nerve impulses generated in the
spiral ganglion cell radial afferents in response to stochastic
quantal release from inner hair cell ribbon
synapses |
|
Mon 11/14 1:00 PM |
478.11 |
KK8 |
*J. M. THOMPSON1, P. B. BROWN1, R. J. MILLECCHIA1, G. A. SPIROU2; 1Physiol. and Pharmacol., 2Otolaryngology; Physiol. and Pharmacol., WVU Sch. of Med., Morgantown, WV |
Structure and functional roles of bilateral inhibitory
circuits projecting to medial superior olive of
cats |
|
Mon 11/14 1:00 PM |
496.09 |
TT25 |
*E. HAGEN1, J. C. FOSSUM1, K. H. PETTERSEN1, J. M. ALONSO2, H. A. SWADLOW3, G. T. EINEVOLL1; 1Dept. Mathematical Sci. and Technology, IMT, Norwegian Univ. of Life Sciences, UMB, Ås, Norway; 2Dept. of Biol. Sci., SUNY Col. of Optometry, New York, NY; 3Dept. of Psychology, Univ. of Connecticut, Storrs, CT |
Modeling the spatiotemporal local-field potential footprint of
unitary thalamocortical inputs to sensory
cortex |
|
Tue 11/15 8:00 AM |
568.26 |
Z29 |
*P. D. ROBERTS1, H. GERTS2, A. SPIROS3; 1In Silico Biosci., Portland, OR; 2In Silico Biosciences, Inc, Philadelphia, PA; 3In Silico Biosciences, Inc, Portland, OR |
A biophysical computational model to guide drug development
using human electroencephlograph |
|
Tue 11/15 8:00 AM |
621.04 |
YY41 |
*R. L. SCHIEK1, C. E. WARRENDER2, H. K. THORNQUIST3, M. TING3, E. R. KEITER3, T. V. RUSSO3, E. L. RANKIN3; 1Sandia Natl. Lab., ALBUQUERQUE, NM; 2Cognitive Modeling, 3Electrical Systems Modeling, Sandia Natl. Labs., Albuquerque, NM |
Advanced partitioning and integration techniques to improve
parallel performance of densely connected neuron
simulations |
|
Tue 11/15 8:00 AM |
622.04 |
YY66 |
*S. A. NEYMOTIN1, C. C. KERR2,4, G. CHADDERDON2, J. T. FRANCIS2, W. W. LYTTON3,5; 1Biomed. Engin. Program, SUNY Downstate, BROOKLYN, NY; 2Physiol. & Pharmacol., 3Physiol. & Pharmacology, Biomed. Engineering, Neurol., SUNY Downstate, Brooklyn, NY; 4Physics, Univ. of Sydney, Sydney, Australia; 5Neurol., Kings County Hosp., Brooklyn, NY |
Restoring physiological oscillations using neuroprosthetic
spike-timing-dependent plasticity in computer model of
neocortex |
|
Tue 11/15 8:00 AM |
622.11 |
YY73 |
S. A. NEYMOTIN1, C. KERR2,4, J. T. FRANCIS2, *W. W. LYTTON3,5; 1Biomed. Engin. Program, 2Physiol. & Pharmacol., SUNY Downstate, Brooklyn, NY; 3SUNY Downstate, BROOKLYN, NY; 4Physics, U Sydney, Sydney, Australia; 5Neurol., Kings County Hosp. Ctr., Brooklyn, NY |
Attentional modulation of receptive fields in a computer model
of the thalamocortical system |
|
Tue 11/15 8:00 AM |
622.24 |
YY86 |
*C. KERR1,2, S. A. NEYMOTIN1, J. MO3, C. E. SCHROEDER4, M. DING3, W. W. LYTTON1; 1Physiol. and Pharmacol., State Univ. of New York, Brooklyn, NY; 2Sch. of Physics, Univ. of Sydney, Sydney, Australia; 3Biomed. Engin., Univ. of Florida, Gainesville, FL; 4Program in Cognitive Neurosci. and Schizophrenia, Nathan Kline Inst. for Psychiatric Res., Orangeburg, NY |
Interlaminar feedback connections dominate in macaque
inferotemporal cortex: in vivo and in silico
studies |
|
Tue 11/15 8:00 AM |
623.08 |
ZZ4 |
*C. SCHNEIDER, M. CASE, I. SOLTESZ; UC Irvine, Irvine, CA |
Enlargement and improvement of a computational model of the
rat dentate gyrus |
|
Tue 11/15 8:00 AM |
624.08 |
ZZ30 |
*R. MURPHY, J. F. STORM; Physiol., Univ. of Oslo, Dept. of Physiol., Oslo, Norway |
Correction of space-clamp errors in voltage-clamp experiments
on neurons: Extension of Cox’s method |
|
Tue 11/15 8:00 AM |
624.18 |
ZZ40 |
R. A. MCDOUGAL1,3,4, W. W. LYTTON5, *M. L. HINES2; 2Computer Sci., 1Yale Univ., NEW HAVEN, CT; 3Mathematics, The Ohio State Univ., Columbus, OH; 5Physiology,Pharmacology,Neurology, 4SUNY Downstate, Brooklyn, NY |
Object-oriented reaction-diffusion modeling in the neuron
simulator. |
|
Tue 11/15 8:00 AM |
624.20 |
ZZ42 |
*S. CHEMLA1, F. CHAVANE2; 1Canadian Ctr. For Behavioral Neurosci., Lethbridge, AB, Canada; 2DyVA Team, INCM CNRS, UMR 6193, Marseille, France |
A biophysical cortical column model to study the effect of
GABAA receptor modulation on the VSDI
signal |
|
Tue 11/15 8:00 AM |
627.16 |
AAA33 |
*D. K. WOJCIK, H. GLABSKA, J. POTWOROWSKI, P. MAJKA, S. LESKI; Nencki Inst. of Exptl. Biol., Warszawa, Poland |
Extracting dynamics of different cell populations from
multielectrode LFP recordings |
|
Tue 11/15 1:00 PM |
655.03 |
B60 |
*S. L. ALLAM1, V. S. GHADERI2, J.-M. C. BOUTEILLER1, N. AMBERT4, S. BISCHOFF4, M. BAUDRY3, T. W. BERGER1; 1Biomed. Engin., 2Electrical Engin., 3Dept. of Biol. Sci., USC, Los Angeles, CA; 4Rhenovia Pharma, Mulhouse, France |
Computational modeling of synaptic non-linear dynamics: From a
tri-partite synapse to a neuron-glia network |
|
Tue 11/15 1:00 PM |
655.04 |
B61 |
*E. Y. HU1, S. L. ALLAM1, J.-M. C. BOUTEILLER1, M. SARMIS3, N. AMBERT3, R. GREGET3, S. BISCHOFF3, M. BAUDRY1,2, T. W. BERGER1,2; 1Biomed. Engin., 2Biol. Sci., USC, Los Angeles, CA; 3Rhenovia, Mulhouse, France |
Comparative analysis of the synaptic modeling platform eons
and its application in multilevel modeling |
|
Tue 11/15 1:00 PM |
655.06 |
B63 |
*J.-M. C. BOUTEILLER1,3, S. L. ALLAM1, E. Y. HU1, V. S. GHADERI1, N. AMBERT3, A. LEGENDRE3, R. GREGET3, M. SARMIS3, A. F. KELLER3, F. PERNOT3, S. BISCHOFF3, M. BAUDRY2,3, T. W. BERGER1,2,3; 1Biomed. Engin., USC, LOS ANGELES, CA; 2Biol. Sci., USC, Los Angeles, CA; 3Rhenovia Pharma, Mulhouse, France |
From synapses to mini-network: Modeling the effects of
positive AMPA receptor modulator |
|
Tue 11/15 1:00 PM |
655.19 |
C12 |
*J. JANG, M. PARK; Sungkyunkwan Univ., Suwon, Korea, Republic of |
Evaluation of location-dependent synaptic variability in the
dendrite of midbrain dopamine neurons |
|
Tue 11/15 1:00 PM |
656.02 |
C14 |
*M. FARINELLA, D. C. T. RUEDT, P. GLEESON, A. R. SILVER; Univ. Col. London, London, United Kingdom |
Background synaptic activity controls NMDA spike duration and
propagation in a model of layer 5 pyramidal neuron |
|
Tue 11/15 1:00 PM |
656.04 |
C16 |
A. MOHAN1, *A. I. COWAN1, C. STRICKER1,2; 1Neurosci., JCSMR, Australian Natl. Univ., Acton,, Australia; 2ANU Med. Sch., Acton, Australia |
A multiresponse technique for robust estimation of passive
membrane parameters of neurons |
|
Tue 11/15 1:00 PM |
656.12 |
C24 |
S. J. GUZMAN1, *M. FROTSCHER2, P. JONAS1; 1IST Austria, Klosterneuburg, Austria; 2Univ. Freiburg, D-79104 Freiburg, Germany |
Glutamatergic synaptic transmission in the CA3-CA3 pyramidal
cell network |
|
Tue 11/15 1:00 PM |
656.16 |
C28 |
*T.-W. KUO, C.-C. LIEN; Inst. of Neurosci. and Brain Res., Natl. Yang-Ming Univ., Taipei, Taiwan |
Role of shunting mechanism in the dentate gyrus: A
computational study |
|
Tue 11/15 1:00 PM |
662.02 |
E23 |
*A. SHAI1, C. ANASTASSIOU2, C. KOCH2,3; 1Pasadena, CA; 2Caltech, Pasadena, CA; 3Allen Inst. for Brain Sci., Seattle, WA |
Single neuron computation during oscillatory barrages of
synaptic input |
|
Tue 11/15 1:00 PM |
662.06 |
E27 |
*M. E. PETERSSON, E. A. FRANSÉN; Sch. of Computer Sci. and Communication, Royal Inst. of Technol., Stockholm, Sweden |
Stable subthreshold dendritic membrane potential plateaus
maintained by TRP currents |
|
Tue 11/15 1:00 PM |
662.09 |
E30 |
*M. R. GROEN1, J. WORTEL2, M. P. DEKKER2, H. M. MANSVELDER1, A. VAN OOYEN1, R. M. MEREDITH1; 1Integrative Neurophysiology, Ctr. for Neurogenomics and Cognitive Res., 2functional genomics, Ctr. for Neurogenomics and Cognitive Res., VU Univ., Amsterdam, Netherlands |
Development of tonic GABA-A mediated inhibition restricts
dendritic action potential back propagation |
|
Tue 11/15 1:00 PM |
662.11 |
E32 |
H. ANWAR1,2, W. VAN GEIT1,2, S. HONG1, *E. DE SCHUTTER2,1; 1Okinawa Inst. of Sci. and Technol., Okinawa, Japan; 2Univ. Antwerp, Antwerp, Belgium |
Constructing a biophysically detailed model of Purkinje cell
dendrites |
|
Tue 11/15 1:00 PM |
662.12 |
E33 |
*Y. R. SHAO, J. E. ELSTROTT, D. R. C. HOUSE, D. E. FELDMAN; Mol. and Cell. Biol., UC Berkeley, Berkeley, CA |
Characterization of voltage clamp and current clamp methods
for estimation of synaptic conductances in L2/3 pyramidal
cells |
|
Tue 11/15 1:00 PM |
691.12 |
LL6 |
*C. F. RABANG1, E. L. BARTLETT2; 1Weldon Sch. of Biomed. Engin., 2Biol. Sciences, Weldon Sch. of Biomed. Engin., Purdue Univ., West Lafayette, IN |
Modeling the influence of inhibition in shaping temporal
coding in the medial geniculate body (MGB) |
|
Tue 11/15 1:00 PM |
706.09 |
UU9 |
*S. M. ELBASIOUNY1, M. JIANG2, C. J. HECKMAN3; 1Evanston, IL; 2Physiol., Northwestern Univ., Evanston, IL; 3Physiol., Northwestern Univ., Chicago, IL |
Using computer simulations for assessing the contributions of
motoneuron intrinsic properties and synaptic inputs to the neural
plasticity in ventral root output in response to electrical
stimulation of the peripheral and descending tracts |
|
Tue 11/15 1:00 PM |
710.04 |
VV19 |
*B. A. SUTER1, M. MIGLIORE2, G. M. G. SHEPHERD1; 1Dept Physiology, Feinberg Sch. Med., Northwestern Univ., Chicago, IL; 2Natl. Res. Council, Palermo, Italy |
Corticospinal neurons in mouse motor cortex: Intrinsic
properties and NEURON model |
|
Wed 11/16 8:00 AM |
765.01 |
D30 |
*B. TORBEN-NIELSEN, Y. LEFLER, I. SEGEV, Y. YAROM; Inst. of Life Sciences, Hebrew Univ., Jerusalem, Israel |
The generation of phase-differences in a network of
electrically coupled neurons |
|
Wed 11/16 8:00 AM |
765.13 |
D42 |
*W. C. STACEY; Neurol., Univ. of Michigan, Ann Arbor, MI |
Network recruitment to coherent oscillations in a hippocampal
computer model |
|
Wed 11/16 8:00 AM |
766.13 |
D65 |
*K. SIDIROPOULOU1,2, P. POIRAZI1; 1Inst. of Mol. Biol. and Biotechnology, Fndn. For Res. and Te, Heraklio, Greece; 2Univ. of Crete, Heraklio, Greece |
Firing-pattern specific properties of persistent activity in a
pyramidal neuron model |
|
Wed 11/16 8:00 AM |
766.23 |
E3 |
*A. YADAV1, D. L. DICKSTEIN1, J. I. LUEBKE2, P. R. HOF1, C. M. WEAVER3; 1Neurosci., Mount Sinai Sch. of Med., New York, NY; 2Anat. and Neurobio., Boston Univ. Sch. of Med., Boston, MA; 3Mathematics and Computer Sci., Franklin and Marshal Col., Lancaster, PA |
Maintaining robustness of firing in layer III pyramidal
neurons: Predictions for the hyperpolarization-activated current
IH in aging |
|
Wed 11/16 8:00 AM |
766.24 |
E4 |
*C. M. WEAVER1, A. YADAV2, P. R. HOF2, J. I. LUEBKE3; 1Mathematics and Computer Sci., Franklin & Marshall Col., Lancaster, PA; 2Neurosci. and Friedman Brain Inst., Mount Sinai Sch. of Med., New York, NY; 3Anat. and Neurobio., Boston Univ. Sch. of Med., Boston, MA |
Model parameter optimization predicts age-related changes in
ion channel density in layer III pyramidal
neurons |
|
Wed 11/16 8:00 AM |
793.12 |
HH5 |
*J. LUJAN1, A. CHATURVEDI2, K. CHOI3, A. R. FRANCO4, P. E. HOLTZHEIMER4, C. C. MCINTYRE1, H. S. MAYBERG5,4; 1Biomed. Engin., Cleveland Clin. Fndn., Cleveland, OH; 2Biomed. Engin., Case Western Reserve Univ., Cleveland, OH; 3Bioengineering Program, Georgia Inst. of Technol., Atlanta, GA; 4Dept. of Psychiatry, 5Dept. of Neurol., Emory Univ. Sch. of Med., Atlanta, GA |
Computational modeling analysis of axonal activation mediating
the antidepressant response to Subcallosal Cingulate Deep Brain
Stimulation |
|
Wed 11/16 1:00 PM |
889.19 |
CC8 |
*J. TEJADA1,2, G. M. ARISI3, N. GARCIA-CAIRASCO3, A. C. ROQUE2; 1Univ. De São Paulo, Ribeirão Preto, Brazil; 2Dept. of Physics, Sch. of Philosophy, Sci. and Letters of Ribeirão Preto, Univ. of São Paulo, Ribeirão Preto, Brazil; 3Sch. of Med. of Ribeirão Preto, Univ. of São Paulo, Ribeirão Preto, Brazil |
Reduced excitability of simulated models of newborn dentate
gyrus granule cells after Status Epilepticus induced by
pilocarpine |